Interplay between domain microstructure and nematic order in liquid crystalline/isotropic block copolymers

The domain microstructure and the nematic LC mesophase in a series of side-chain liquid crystalline/isotropic (LC/I) diblock copolymers with systematically varied block volume fractions were studied in a broad temperature range (25-170 °C) by DSC, polarized microscopy, and wide and small angle X-ray...

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Published in:Colloid and polymer science 2004-06, Vol.282 (8), p.810-824
Main Authors: IVANOVA, Rouja, STANEVA, Rosina, GEPPERT, Steffen, HECK, Barbara, WALTER, Bernd, GRONSKI, Wolfram, STÜHN, Bernd
Format: Article
Language:English
Subjects:
Applied sciences
Block copolymers
Blocking
Chains
Copolymers
Curvature
Exact sciences and technology
Mathematical analysis
Mesophase
Microstructure
Nematic
Organic polymers
Physicochemistry of polymers
Properties and characterization
Structure, morphology and analysis
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container_issue 8
container_start_page 810
container_title Colloid and polymer science
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creator IVANOVA, Rouja
STANEVA, Rosina
GEPPERT, Steffen
HECK, Barbara
WALTER, Bernd
GRONSKI, Wolfram
STÜHN, Bernd
description The domain microstructure and the nematic LC mesophase in a series of side-chain liquid crystalline/isotropic (LC/I) diblock copolymers with systematically varied block volume fractions were studied in a broad temperature range (25-170 °C) by DSC, polarized microscopy, and wide and small angle X-ray scattering. At all temperatures the block copolymers are microphase separated. The PSLC block copolymers exhibit order at two length-scales: on one hand, a nematic LC mesophase with characteristic length-scale of 0.43 nm (intermesogen distance); on the other hand, lamellar, hexagonal or cubic domain microstructures with characteristic length-scales of 27-44 nm (lattice parameter). The LC block was either located in the matrix or confined inside the microdomains. The thermotropic behavior is characterized by the sequence g/~35 °C/n/~115 °C/i and is not affected by the domain microstructure and/or dimensions. Analysis of the lamellar dimensions showed that the LC chain is stretched. With increasing temperature, a thermal expansion of both blocks takes place followed by a retraction of the LC chain above T^sub NI^. The phase diagram is asymmetric and does not alter above T^sub NI^. No order-to-order transitions triggered by the nematic-isotropic transition are observed. It was shown that domain microstructures of low interfacial curvature (lamellar and hexagonal) are energetically favored over the geometrically expected ones of high interfacial curvature (micellar cubic) due to the presence of nematic LC mesophase in the matrix or in the microdomains. By comparison to theory a Kuhn segment length of the LC block b^sub LC^=0.86 nm was derived from the location of the lamellar/hexagonal phase boundaries.[PUBLICATION ABSTRACT]
doi_str_mv 10.1007/s00396-004-1128-x
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It was shown that domain microstructures of low interfacial curvature (lamellar and hexagonal) are energetically favored over the geometrically expected ones of high interfacial curvature (micellar cubic) due to the presence of nematic LC mesophase in the matrix or in the microdomains. 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subjects Applied sciences
Block copolymers
Blocking
Chains
Copolymers
Curvature
Exact sciences and technology
Mathematical analysis
Mesophase
Microstructure
Nematic
Organic polymers
Physicochemistry of polymers
Properties and characterization
Structure, morphology and analysis
title Interplay between domain microstructure and nematic order in liquid crystalline/isotropic block copolymers
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